iScience (Jul 2024)

Atypical cadherin, Fat2, regulates axon terminal organization in the developing Drosophila olfactory receptor neurons

  • Khanh M. Vien,
  • Qichen Duan,
  • Chun Yeung,
  • Scott Barish,
  • Pelin Cayirlioglu Volkan

Journal volume & issue
Vol. 27, no. 7
p. 110340

Abstract

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Summary: The process of how neuronal identity confers circuit organization is intricately related to the mechanisms underlying neurodegeneration and neuropathologies. Modeling this process, the olfactory circuit builds a functionally organized topographic map, which requires widely dispersed neurons with the same identity to converge their axons into one a class-specific neuropil, a glomerulus. In this article, we identified Fat2 (also known as Kugelei) as a regulator of class-specific axon organization. In fat2 mutants, axons belonging to the highest fat2-expressing classes present with a more severe phenotype compared to axons belonging to low fat2-expressing classes. In extreme cases, mutations lead to neural degeneration. Lastly, we found that Fat2 intracellular domain interactors, APC1/2 (Adenomatous polyposis coli) and dop (Drop out), likely orchestrate the cytoskeletal remodeling required for axon condensation. Altogether, we provide a potential mechanism for how cell surface proteins’ regulation of cytoskeletal remodeling necessitates identity specific circuit organization.

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